US2622863A - Rotary hearth furnace - Google Patents

Rotary hearth furnace Download PDF

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US2622863A
US2622863A US165007A US16500750A US2622863A US 2622863 A US2622863 A US 2622863A US 165007 A US165007 A US 165007A US 16500750 A US16500750 A US 16500750A US 2622863 A US2622863 A US 2622863A
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furnace
hearth
stack
charging
rotary
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Alan D Dauch
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    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D9/00Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor
    • C21D9/0037Rotary furnaces with vertical axis; Furnaces with rotating floor

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  • This invention relates. to new and ,useful improvements in rotary heating furnaces, more pare ticularly billet heating furnaces having a capacity for heating up to one hundred tons of steel billets per hour.
  • 1 .It is. among the objects of this inventionto provide a rotary hearth furnace. into which steel billets are continually charged and from which such billets are discharged at charge and discharge stations that are side by side; with a partition wall therebetween, having a maximum furnace, temperature at the discharge stationand the minimum at the charging station.
  • Fig. 1 is a top plan View of one-half of a rotary hearth heating furnace embodying the principles of this invention
  • Fig. 2 a similar view of the other half of the furnace.
  • Fig. 3 a vertical cross-sectional View of a projection of the walls of the furnace.
  • numeral I generally designates the inner wall and 2 the outer wall of an annular furnace chamber having a flat arched roof generally designated by the numeral 3, Fig. 3.
  • the furnace is divided into heating zones by partitions 4, 5, B and 1, the partition 4 being disposed between a charging door 48 and a discharge door 9, and a stack uptake, generally designated by the; numeral I0, is on the charging side of the furnace chamber, .as is .moreclearly shown in Fig. 3.
  • a prime feature of the invention is the provision of a low flat arched roof II that extends a substantial distance from the stackuptake [0 of thefurnace forthe purpose of reducing the area of the furnace chamber so that the gasses passing to the stack uptake ID are lowered to contactwith the cold billets that have been charged'into the furnace through the door 8 and are traveling on the rotary hearth in the direction designated by the arrow below the stack uptake l0.- l V
  • the partition 4 extends a substantial distance to the hearth, the numeral l2 designating the hearth line or the surface on which steel billets are charged.
  • the space below the partition 4, designated by the numeral I3 is such that a positive pressure is maintained at the discharge 'door 9 to prevent the ingress of air through the discharge opening 9 when billets are removed from the furnace.
  • the pressureprevailing on the charging side of the furnace will counteract the low pressure atmosphere on the discharge side of the partition 4, thus preventing a vacuum which would draw air-into the furnace through the discharge opening 9, l 4
  • thejtemperaturein the zone between the partitions 4 and 5 may be slightly. higher, or 2300 F.
  • the temperaturebetween partitions 5 and 6 would be about .2250? R; .thetemperature between partitions. Rand. .1. 2200? F., and from partition lto the stack'uptake l0 it'would gradually lower to where it is discharged to the stack at a temperature between 1600 and 1800 F.
  • the furnace is heated by a series of burners l1 and I8, some of which are tangentially disposed and others, like the burners l9, are radially disposed, depending upon the proximity of a partition wall.
  • arch H The details of arch H are shown in Fig. 1 of the drawing and a sector showing the arch steel, designated by the numeral 29, and the refractory flat arch construction 2
  • the steel and refractory construction shown in the two sectors is illustrative only and is the construction carried out throughout the entire roof or arch of the furnace.
  • Numerals 22 and 23 designate service openings for inspection of the furnace chamber.
  • rotary heating furnaces constructed in accordance therewith provide for the efficient heating of billets in large volumes giving the furnace maximum heating capacity and utilizing most of the heat of the products of combustion in their passage to the stack.
  • the varying temperature from the high temperature at the discharge zone of the furnace gradually reducing throughout the 360 degrees to the stack zone of the furnace, with the graduated spaces in the baffle walls, provide for a gradual and natural stack draft causing uniform flow of the gases from one zone to the other and eventually bringing them in wiping contact for efficient heat exchange with the freshly charged steel billets.
  • an annular hearth mounted for rotation between an inner and outer cylindrical wall, a flat arch roof extending between the furnace walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, and a stack adjacent the charging opening, the flat arch roof of the furnace being of different height, with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends .a greater distance than the distance of the minimum height section of the furnace chamber.
  • an annular hearth mounted for rotation between an inner and outer cylindrical wall, a fiat arch roof extending between the furnace 'walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, a stack adjacent the charging opening, the flat arch roof of the furnace being of difierent height with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends a greater distance than the distance of the minimum height section of the furnace chamber, and a fixed partition wall suspended from the roof of the furnace dividing the furnace chamber between the charge and discharge openings to maintain a pressure balance between the high and low temperature zones.
  • an annular hearth mounted for rotation between an inner and outer cylindrical wall, a fiat arch roof extending between the furnace walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, a stack adjacent the charging opening, the fiat arch roof of the furnace being of different height with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends a greater distance than the distance of the minimum height section of the furnace chamber, a fixed partition wall suspended from the roof of the furnace dividing the furnace chamber between the charge and discharge openings to maintain a pressure balance between the high and low temperature zones, and a plurality of fixed partition walls of different lengths suspended from the furnace roof throughout the section of medium height, said partition walls reducing in length in the direction-opposite the direction of hearth

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Tunnel Furnaces (AREA)

Description

1952 A. D. DAUCH ROTARY HEARTH FURNACE 2 SHEETSSHEET 1 Filed May 29, 1950 IN VEN TOR.
Dec. 23, 1952 A. D. DAUcH 2,622,863
ROTARY HEARTH FURNACE Filed May 29, 1950 2 SHEETSSHEET 2 JNVENTOR.
BY MAN 1 Patented Dec. 23, 1952 UNITED STATES PATENT OFFICE 2,622,863 ROTARY. HEARTH FURNACE Alan 1). Dauch, Pittsburgh, Pa. Application May 29, 1950, Serial No. 165,007
3 Claims. (01. 263--28) I This invention relates. to new and ,useful improvements in rotary heating furnaces, more pare ticularly billet heating furnaces having a capacity for heating up to one hundred tons of steel billets per hour. 1 .It is. among the objects of this inventionto provide a rotary hearth furnace. into which steel billets are continually charged and from which such billets are discharged at charge and discharge stations that are side by side; with a partition wall therebetween, having a maximum furnace, temperature at the discharge stationand the minimum at the charging station.
It is a further object of the invention to provide a. rotary hearth furnace of the above designated character in which the products of combustion are removed from the charging end of the furnace in a manner to cause a wiping contact with the relatively cold metal charged into the furnace to effect maximum heat absorption for preheating the charge and obtain a minimum temperature of the waste gases passing to the stack. 7 I
It is a further object of the invention to provide a rotary hearth furnace for heating steel billets or the like in which the annular heating chamber is partitioned toprovide different temperature zones whereby set temperatures may be maintained in such zones to prevent shock to the metal passing from zone tozone, which is particularly critical in some alloy steels. I f
It is still a further object of .theinvention to provide a rotary hearth furnace of the above designated character having tangential and radial. burner openings and inspection openings throughout the major portion of the furnacewalls to provide for, the efiicientheating of the fur,- nace chamber.
The invention will become more apparent from a consideration of the accompanying drawing' constituting a part hereof, in which like reference characters designate like parts, and in which:"
Fig. 1 is a top plan View of one-half of a rotary hearth heating furnace embodying the principles of this invention;
Fig. 2 a similar view of the other half of the furnace; and
Fig. 3 a vertical cross-sectional View of a projection of the walls of the furnace.
With reference to the several figures of the drawings, numeral I generally designates the inner wall and 2 the outer wall of an annular furnace chamber having a flat arched roof generally designated by the numeral 3, Fig. 3. The furnace is divided into heating zones by partitions 4, 5, B and 1, the partition 4 being disposed between a charging door 48 and a discharge door 9, and a stack uptake, generally designated by the; numeral I0, is on the charging side of the furnace chamber, .as is .moreclearly shown in Fig. 3.
A prime feature of the invention is the provision of a low flat arched roof II that extends a substantial distance from the stackuptake [0 of thefurnace forthe purpose of reducing the area of the furnace chamber so that the gasses passing to the stack uptake ID are lowered to contactwith the cold billets that have been charged'into the furnace through the door 8 and are traveling on the rotary hearth in the direction designated by the arrow below the stack uptake l0.- l V The partition 4 extends a substantial distance to the hearth, the numeral l2 designating the hearth line or the surface on which steel billets are charged. The space below the partition 4, designated by the numeral I3, is such that a positive pressure is maintained at the discharge 'door 9 to prevent the ingress of air through the discharge opening 9 when billets are removed from the furnace. In other words, the pressureprevailing on the charging side of the furnace will counteract the low pressure atmosphere on the discharge side of the partition 4, thus preventing a vacuum which would draw air-into the furnace through the discharge opening 9, l 4
The partitions 5; 6 and 'lhave graduated open-; ings. l4, l5 and I6 increasing with the temperature drop. in the zones beginning from the discharge zone. of the furnace to the charging end. Thus, for example, if the billets are heated. to a temperature of 2250 F. at which they ar'ehdischarged from the furnace door 9, thejtemperaturein the zone between the partitions 4 and 5 may be slightly. higher, or 2300 F. The temperaturebetween partitions 5 and 6 would be about .2250? R; .thetemperature between partitions. Rand. .1. 2200? F., and from partition lto the stack'uptake l0 it'would gradually lower to where it is discharged to the stack at a temperature between 1600 and 1800 F. By means of the lowered roof arch ll causing the wiping action of the products of combustion on the freshly charged billets, a substantial temperature drop is effected in this zone to incur a minimum heat loss and obtain maximum eificiency in heating, which in actual practice has resulted in very substantial savings of gas. The furnace is heated by a series of burners l1 and I8, some of which are tangentially disposed and others, like the burners l9, are radially disposed, depending upon the proximity of a partition wall.
The details of arch H are shown in Fig. 1 of the drawing and a sector showing the arch steel, designated by the numeral 29, and the refractory flat arch construction 2| is shown in Fig. 2 of the drawing. The steel and refractory construction shown in the two sectors is illustrative only and is the construction carried out throughout the entire roof or arch of the furnace. Numerals 22 and 23 designate service openings for inspection of the furnace chamber.
It is evident from the foregoing description of the invention that rotary heating furnaces constructed in accordance therewith provide for the efficient heating of billets in large volumes giving the furnace maximum heating capacity and utilizing most of the heat of the products of combustion in their passage to the stack. By virtue of the varying temperature from the high temperature at the discharge zone of the furnace, gradually reducing throughout the 360 degrees to the stack zone of the furnace, with the graduated spaces in the baffle walls, provide for a gradual and natural stack draft causing uniform flow of the gases from one zone to the other and eventually bringing them in wiping contact for efficient heat exchange with the freshly charged steel billets.
Although one embodiment of the invention has been herein illustrated and described, it will be evident to those skilled in the art that various modifications may be made in the details of construction without departing from the principles herein set forth.
I claim:
1. In a rotary furnace, an annular hearth mounted for rotation between an inner and outer cylindrical wall, a flat arch roof extending between the furnace walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, and a stack adjacent the charging opening, the flat arch roof of the furnace being of different height, with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends .a greater distance than the distance of the minimum height section of the furnace chamber.
2. In a rotary furnace, an annular hearth mounted for rotation between an inner and outer cylindrical wall, a fiat arch roof extending between the furnace 'walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, a stack adjacent the charging opening, the flat arch roof of the furnace being of difierent height with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends a greater distance than the distance of the minimum height section of the furnace chamber, and a fixed partition wall suspended from the roof of the furnace dividing the furnace chamber between the charge and discharge openings to maintain a pressure balance between the high and low temperature zones.
3. In a rotary furnace, an annular hearth mounted for rotation between an inner and outer cylindrical wall, a fiat arch roof extending between the furnace walls to provide a furnace chamber of substantially rectangular shape through any transverse section radially of the hearth and walls, a pair of adjacent openings in a wall of said furnace for charging and discharging articles to be heated, a stack adjacent the charging opening, the fiat arch roof of the furnace being of different height with the maximum height section at the charging and discharging openings, the minimum height section extending a substantial distance beyond the stack in the direction of the hearth movement, and a medium intermediate height section throughout the main portion that extends a greater distance than the distance of the minimum height section of the furnace chamber, a fixed partition wall suspended from the roof of the furnace dividing the furnace chamber between the charge and discharge openings to maintain a pressure balance between the high and low temperature zones, and a plurality of fixed partition walls of different lengths suspended from the furnace roof throughout the section of medium height, said partition walls reducing in length in the direction-opposite the direction of hearth movement to maintain substantially constant velocity of the products of combustion in their flow through the annular furnace chamber.
ALAN D. DAUCH.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,569,923 Gudmundson et a1. Jan. 19, 1926 1,914,717 Heuer June 20, 1933 2,296,791 Keener et a1. Sept. 22, 1942 FOREIGN PATENTS Number Country Date 898,099 France Apr. 10, 1945 588,238 Germany Nov. 17, 1933
US165007A 1950-05-29 1950-05-29 Rotary hearth furnace Expired - Lifetime US2622863A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE922175C (en) * 1952-10-26 1955-01-10 Alan De Clue Dauch Rotary hearth furnace
US2762618A (en) * 1951-06-18 1956-09-11 Thermal Res And Engineering Co Billet heating furnace
US3050298A (en) * 1960-04-04 1962-08-21 Richard Terry Hall Calcination means and method
US3197184A (en) * 1961-11-13 1965-07-27 Stein & Roubaix Apparatus for heating metals to high temperatures
US3348915A (en) * 1961-11-07 1967-10-24 Norton Co Method for producing a crystalline carbide, boride or silicide

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1569923A (en) * 1924-02-04 1926-01-19 Gudmundsen Austin Device for furnaces
US1914717A (en) * 1930-04-23 1933-06-20 American Metal Co Ltd Copper melting furnace method
US2296791A (en) * 1941-06-07 1942-09-22 Sam F Keener Rotary furnace
FR898099A (en) * 1943-09-08 1945-04-10 Continuous suspended rotary hearth furnace for metal heating

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1569923A (en) * 1924-02-04 1926-01-19 Gudmundsen Austin Device for furnaces
US1914717A (en) * 1930-04-23 1933-06-20 American Metal Co Ltd Copper melting furnace method
DE588238C (en) * 1930-04-23 1933-11-17 American Metal Co Ltd Copper melting furnace with preheating channel for the material to be melted
US2296791A (en) * 1941-06-07 1942-09-22 Sam F Keener Rotary furnace
FR898099A (en) * 1943-09-08 1945-04-10 Continuous suspended rotary hearth furnace for metal heating

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2762618A (en) * 1951-06-18 1956-09-11 Thermal Res And Engineering Co Billet heating furnace
DE922175C (en) * 1952-10-26 1955-01-10 Alan De Clue Dauch Rotary hearth furnace
US3050298A (en) * 1960-04-04 1962-08-21 Richard Terry Hall Calcination means and method
US3348915A (en) * 1961-11-07 1967-10-24 Norton Co Method for producing a crystalline carbide, boride or silicide
US3197184A (en) * 1961-11-13 1965-07-27 Stein & Roubaix Apparatus for heating metals to high temperatures

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